Data communication apparatus, control method therefor, and storage medium storing control program therefor

ABSTRACT

A data communication apparatus that is capable of improving operability when inputting authentication information. An authentication unit accepts authentication information inputted when a user logs in to the data communication apparatus and authenticates the user based on the accepted authentication information. A designation unit designates a file transmission destination that is inputted by the authenticated user. A transmission unit transmits a file to the transmission destination inputted. A registration unit registers the transmission destination of the file. A control unit prohibits registration of the authentication information at the time of registration of the transmission destination of the file when the accepted authentication information is used for file transmission, and permits registration of the authentication information at the time of registration of the transmission destination of the file when the inputted authentication information is not used for file transmission.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to a data communication apparatus, acontrol method therefor, and a storage medium storing control programtherefor.

Description of the Related Art

In recent years, multifunction printers (also known as multifunctionalperipheral devices) that have a plurality of functions, such as afacsimile function, a network scan function, and a print function, inaddition to a copy function, are used increasingly and widely. Usually,such a multifunction printer is provided with an operation panel havinga touch screen function and an operation unit having hard keys. A usercalls a desired function from a function list, and operates theapparatus.

User authentication may be required for retaining security and chargingfor services (and consumable goods) when a user uses the apparatus. Inthis case, the device performs a user authentication based on inputinformation from a touch panel or a card, and the apparatus becomesavailable when the authentication is successful.

When a user uses a network scan function of which the destinationapparatus is a file server, the user designates an IP address or a hostname of the file server, a destination folder, a user name and apassword of the login user, as transmission destination information.

The user sets 300*300 dpi as a reading resolution, A4 as a reading size,and PDF as a file format, for example, as setting items for reading. Acolor mode for reading an original, a transmitting document name, etc.may be set.

The multifunction printer reads an original according to the settingsand transmits the read image to the designated destination using thedesignated communication method.

Since there are many setting items that can be designated at the time oftransmission, it is useful that setting operations by a user aresimplified.

When a file is transmitted to the file server, the authenticationinformation for logging in to the file server tends to relate to theuser who is operating the apparatus. Accordingly, there is a knowntechnique for using the authentication information that was used when auser uses an apparatus as the authentication information for logging into the file server without making a user input it again.

The transmitting processes that a user (or a plurality of users)performs most often are finite, and there is a known technique thatsaves transmission destinations, settings for reading, etc., which wereonce inputted, as settings that are frequently used. The user can call asetting when depressing a predetermined button to which the savedcontent is assigned, and this makes a user's transmission-settingoperation easy.

If the user wants to save the transmission setting to the file server,the user can save the transmission setting as a usual setting to theapparatus by operating a menu displayed on the operation panel after thetransmission setting is completed (for example as a “favorite” setting).

However, the settings saved in the apparatus are not always valid whenthe settings will be called. For example, when the password expirationdate is set, the password to the file server may be invalid when thesettings will be called. In such a case, if the user calls and transmitsthe setting saved in the apparatus, a transmission error will arise.

Thus, an authentication information setting apparatus that can access aserver using authentication information including an ID and a password,and that can redefine the authentication information when the expirationdate of the authentication information saved in the apparatus expires isproposed (for example, see Japanese Laid-Open Patent Publication (Kokai)No. 2001-167051 (JP 2001-167051A)).

However, there is not only a type of authentication information like apassword that becomes invalid on the expiration date, but also anothertype that is valid only when a user is logged in an apparatus. It is notonly meaningless to save such authentication information to anapparatus, but also it is not preferred from the point of view ofsecurity.

On the other hand, it is preferable that a user is not required toperform a setting operation again when a usual setting saved in anapparatus is called, in order to simplify a user's setting operation.For example, it is not preferable from a view point of operability thata user is required to input authentication information that is not savedas a usual setting whenever the setting is called.

SUMMARY OF THE INVENTION

The present invention provides a data communication apparatus, a controlmethod therefor, and a storage medium storing a control programtherefor, which may be capable of improving operability when inputtingauthentication information used to transmit data to another apparatus.

Accordingly, a first aspect of the present invention provides a datacommunication apparatus comprising an authentication unit configured toaccept authentication information that is inputted when a user logs into the data communication apparatus and to authenticate the user basedon the accepted authentication information, a designation unitconfigured to designate a transmission destination of a file that isinputted by the authenticated user, a transmission unit configured totransmit a file to the transmission destination inputted by the user, aregistration unit configured to register the transmission destination ofthe file, a control unit configured to prohibit registration of theauthentication information at the time of registration of thetransmission destination of the file when the authentication informationthat is inputted when the user logs in to the data communicationapparatus is used as authentication information required at the time offile transmission, and to permit registration of the authenticationinformation at the time of registration of the transmission destinationof the file when the inputted authentication information is not used asauthentication information required at the time of file transmission.

Accordingly, a second aspect of the present invention provides a controlmethod for a data communication apparatus, comprising an authenticationstep of accepting authentication information that is inputted when auser logs in to the data communication apparatus and of authenticatingthe user based on the accepted authentication information, a designationstep of designating a transmission destination of a file that isinputted by the authenticated user, a transmission step of transmittinga file to the transmission destination inputted by the user, aregistration step of registering the transmission destination of thefile, a prohibition step of prohibiting registration of theauthentication information at the time of registration of thetransmission destination of the file when the authentication informationthat is inputted when the user logs in to the data communicationapparatus is used as authentication information required at the time offile transmission, and a permission step of permitting registration ofthe authentication information at the time of registration of thetransmission destination of the file when the inputted authenticationinformation is not used as authentication information required at thetime of file transmission.

Accordingly, a third aspect of the present invention provides anon-transitory computer-readable storage medium storing a controlprogram causing a computer to execute the control method of the secondaspect.

According to the present invention, the data communication apparatus,the control method therefor, and the storage medium storing a controlprogram therefor which are capable of improving operability wheninputting authentication information used to transmit data to anotherapparatus can be provided.

Further features of the present invention will become apparent from thefollowing description of exemplary embodiments with reference to theattached drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram schematically showing a configuration of animage processing apparatus according to a first embodiment of thepresent invention.

FIG. 2 is a block diagram schematically showing a software configurationof the image processing apparatus shown in FIG. 1.

FIG. 3 is a view showing an image processing system to which theembodiment is applied.

FIG. 4 is a plan view showing an operation unit shown in FIG. 1.

FIG. 5 is a view showing an example of a first scan operation screendisplayed on a touch panel of the operation unit shown in FIG. 4.

FIG. 6 is a view showing an example of a second scan operation screendisplayed on the touch panel of the operation unit shown in FIG. 4.

FIG. 7 is a view showing an example of a usual setting screen displayedon the touch panel of the operation unit shown in FIG. 4.

FIG. 8 is a view showing an example of usual setting information that isstored in a history on a memory shown in FIG. 1.

FIG. 9 is a flowchart showing a registration process executed by a CPUshown in FIG. 1.

FIG. 10A is a view showing an example of aregistration-with/without-password selection screen displayed on thetouch panel of the operation unit shown in FIG. 4.

FIG. 10B is a view showing an example of a registration-without-passwordconfirmation screen displayed on the touch panel of the operation unitshown in FIG. 4.

FIG. 11 is a flowchart showing a reading process executed by the CPUshown in FIG. 1.

FIG. 12 is a view showing an example of a destination input screendisplayed on the touch panel of the operation unit in FIG. 4.

FIG. 13 is a flowchart showing a registration process according to asecond embodiment.

FIG. 14 is a flowchart showing a reading process according to a thirdembodiment.

DESCRIPTION OF THE EMBODIMENTS

Hereafter, embodiments according to the present invention will bedescribed in detail, purely by way of example, and with reference to thedrawings.

It should be noted that the terms “data communication apparatus” and“image processing apparatus” are interchangeably used in the followingdescription and claims.

FIG. 1 is a block diagram schematically showing a configuration of animage processing apparatus according to a first embodiment of thepresent invention.

As shown in FIG. 1, the image processing apparatus 100 is provided withan image forming unit 101 that forms an image on a recording sheet withan electrophotography system, and a control unit 102 that controls theimage processing apparatus 100. The image processing apparatus 100 isprovided with a finisher 103 that performs post-processes such as astaple process, a scanner unit 104 that reads an original image, and anoperation unit 105 through which various kinds of data and commands areinputted.

The image processing apparatus 100 is further provided with a networkinterface 106 that transmits and receives image data through a network,a facsimile interface 107 that transmits and receives facsimile data,and a card reader 110 that authenticates a user who uses the apparatus.

Then, the image forming unit 101, the finisher 103, the scanner unit104, the operation unit 105, the network interface 106, and thefacsimile interface 107 are connected to the control unit 102 each witha dedicated interface.

The main part of the control unit 102 consists of a CPU (centralprocessing unit) 108 and a memory (storage means) 109.

The memory 109 stores control programs that enable methods correspondingto methods shown in the flowcharts shown in FIG. 9, FIG. 11, FIG. 13,and FIG. 14, control programs for displaying setting dialog boxes shownin FIGS. 4 through 7, FIG. 10, and FIG. 12, contents that describeoperation screen information, etc.

FIG. 2 is a block diagram schematically showing a software configurationof the image processing apparatus 100 shown in FIG. 1.

A UI (user interface) control module 201 shown in FIG. 2 displays anoperation screen on a touch panel of the operation unit 105, andcontrols a user interface through which user's operations are received.A scanning control module 202 controls the scanner unit 104, andcontrols a process for reading an original image.

A transmission control module 203 controls a process for transmittingthe image data read by the scanning control module 202 to a destinationdesignated by a user using the network interface 106. A facsimilecontrol module 204 controls transmission and reception of a facsimileusing the facsimile interface 107.

A job management module 205 manages a user's transmission request thatis accepted by the UI control module 201 and its running state. An imagemanagement module 206 manages management information about the imageread by the scanner unit 104. A transmission setting management module207 manages the transmission setting that is saved in the apparatus oris read from the apparatus according to a user's instruction.

FIG. 3 is a view showing an image processing system 300 to which theembodiment is applied.

The above-mentioned image processing apparatus 100, a server computer302, and an authentication server 303 are shown in FIG. 3.

The server computer 302 corresponds to another apparatus that transmitsimage data obtained by scanning an original. A display unit 321 and aninput device 322 are connected to the server computer 302.

The authentication server 303 authenticates a user when the user usesthe image processing apparatus 100 and the server computer 302. Theseare connected to the network via respective network interfaces.

FIG. 4 is a plan view showing the operation unit 105 shown in FIG. 1.

In the example shown in FIG. 4, application selection buttons that calloperation screens for desired functions are displayed on the touch panel601 of the operation unit 105. In this example, a “COPY” button 606, a“SCAN” button 607, a “FAX” button 608, and a “BOX” button 609 that calloperation screens for a copy function, a network scan function, afacsimile function, and a box function, respectively, are displayed.

A ten-key pad 602, a start key 603 that directs to start a job, a“SETUP/REGISTRATION” screen call button 604 that calls a device setupscreen, and a “HISTORY/STATUS” button 605 that calls a jobhistory/status screen are arranged on the operation unit 105.

FIG. 5 is a view showing an example of a first scan operation screendisplayed on the touch panel 601 of the operation unit 105 shown in FIG.4.

The first scan operation screen in FIG. 5 is displayed on the touchpanel 601 of the operation unit 105 when a user depresses the “scan”button 607 shown in FIG. 4. In this view, a destination-input-buttongroup 701 that allows the designation of a transmission destination isdisplayed.

A destination can be inputted by any methods of an “address book”, a“one-touch”, and a “new destination”. A transmission-setting-buttongroup 702 is used when setting up transmission settings, such as areading resolution and a reading color mode. An application settingbutton 703 is used when calling various detailed settings about readingand transmitting.

A “usual setting” button 704 that calls saved transmission settings isalso displayed.

The first scan operation screen enables an e-mail transmission and afile transmission. A specified setting enables a facsimile transmission.

FIG. 6 is a view showing an example of a second scan operation screendisplayed on the touch panel 601 of the operation unit 105 shown in FIG.4.

The second scanning operation screen in FIG. 6 is displayed when a userperforms a transmission setting, for example, when a user designates atransmission destination.

In the example shown in FIG. 6, the transmission destination“Host.myFolder” designated by the user is displayed in a transmissiondestination list 711. A detailed information button 712 for displayingdetails of a transmission destination is also displayed. A set value isreflected to the transmission setting button and a caption of a filetype button is PDF (OCR) (Portable Document Format (Adobe Acrobat)(Optical Character Recognition)). The application setting button 703 ishighlighted in order to show that application settings, such as atransmitting file name, are effective.

FIG. 7 is a view showing an example of the usual setting screendisplayed on the touch panel 601 of the operation unit 105 shown in FIG.4.

The usual setting screen is displayed on the touch panel 601 of theoperation unit 105 when a user depresses the “usual setting” button 704in FIG. 4.

As shown in FIG. 7, a “usual setting” button group 801 that isregistered by the user, a registration button 802 that newly registersthe current transmission setting, and an edit button 803 that edits theexisting buttons are displayed on the usual setting screen. It should benoted that the “usual setting” button group 801 of the example in FIG. 7includes buttons for “SERVER 1/SHARE 1”, “SERVER 1/REPORT”, “FAX/HEADOFFICE WEEKLY REPORT”, and “E-MAIL/BROADCAST”.

When a user depresses a desired button included in the “usual setting”button group 801, the setting information that is related to the buttonis called and is reflected to the transmission setting. When the userdepresses the registration button 802, the transmission setting can beregistered.

FIG. 8 is a view showing an example of usual setting information(transmission setting information) that is stored in a history on thememory 109 shown in FIG. 1.

The usual setting information comprises destination information 811,reading setting information 812, file format information 813, andadditional information 814.

The destination information 811 corresponds to a transmission protocol.In this example, the protocol is a “FILE” and the destinationinformation 811 is required for the file transmission. The destinationinformation 811 contains a password as authentication information thatis used for authentication in another apparatus.

The reading setting information 812 shows size and resolution. In FIG.8, the reading size is “AUTO” and the reading resolution is 300*300 dpi(dots per inch).

The file format information 813 shows a format of a file. FIG. 8 showsthe format that uses high compression PDF and OCR. The additionalinformation 814 is information other than the above-mentionedinformation, and is a transmitting file name in FIG. 8.

FIG. 9 is a flowchart showing a registration process executed by the CPU108 shown in FIG. 1.

FIG. 9 shows the process for registering the current transmissionsetting as a usual setting, and the program therefor is stored in thememory 109.

The UI control module 201 accepts a registration request by a user (stepS401). Specifically, the user performs a desired transmission setting byoperating buttons in the destination-input-button group 701 andtransmission-setting-button group 702 on the scan operation screen, andopens the usual setting screen by depressing the “usual setting” button704, and then, the user can request to save the setting by depressingthe registration button 802.

Next, the UI control module 201 confirms the set value of thetransmission setting corresponding to the registration request (stepS402). Then, the UI control module 201 determines whether thetransmission destination included in the transmission setting in theconfirmed set value is a new destination of a file transmission (stepS403).

Since the password is not included in the transmission setting when thetransmission destination is not a new destination (NO in the step S403),the UI control module 201 leaves the process to the transmission settingmanagement module 207, registers the set value as-is (step S409), andfinishes the process.

The UI control module 201 specifically passes the registration requestof the transmission setting accepted in the step S401 to thetransmission setting management module 207. Then, the transmissionsetting management module 207 saves the set value in a predeterminedarea of the memory 109.

On the other hand, when the transmission destination is a newdestination (YES in the step S403), the password included in thetransmission setting may not be permanent. Then, the UI control module201 acquires attribute information about the password included in thetransmission setting accepted in the step S401 (step S404), anddetermines whether the password accepted when the user logged in to theimage processing apparatus 100 is used as a password that is required atthe time of file transmission (step S405).

Namely, it is determined whether a login information connection in whichthe password that is required at the time of file transmission isidentical to the password used for the authentication at the time oflogin to the image processing apparatus 100 is set. The memory 109stores the password that was used for the authentication when the userlogged in to the image processing apparatus 100.

When it is set that the image processing apparatus 100 accepts apassword from a user when transmitting a file, the determination resultin the step S405 becomes YES.

When the determination result in the step S405 is NO, theregistration-with/without-password selection screen is displayed (stepS406) in order to make the user determine whether to register this asthe usual setting. That is, the authentication information required atthe time of file transmission can be registered in addition to thetransmission destination of the file. The details of theregistration-with/without-password selection screen will be describedlater.

Next, it is determined whether the user selected the registration with apassword (step S407). When the registration of the password is selected(YES in the step S407), the UI control module 201 registers thepassword, sets a password deletion flag that is registered as the usualsetting to OFF (step S408), and proceeds with the process to the stepS409.

On the other hand, when the registration of the password is not selected(NO in the step S407), the UI control module 201 deletes the passwordincluded in the transmission setting accepted in the step S401 (stepS411).

Then, the UI control module 201 sets the password deletion flag that isregistered as the usual setting to ON (step S412), and proceeds with theprocess to the step S409.

When the determination result in the step S405 is YES, it is notpreferable to register the password as the usual setting, because thepassword is valid only when the user is logging in to the imageprocessing apparatus 100 and is not permanent.

Then, the UI control module 201 displays theregistration-without-password confirmation screen (step S410) in orderto prohibit the registration of the authentication information with thetransmission destination of the file, and proceeds with the process tothe step S411. The details of the registration-without-passwordconfirmation screen will be described later.

Thus, when the password is included in the transmission settingregistered as the usual setting, the registration process can beperformed appropriately depending on the setting of whether the passwordaccepted at the time of login is used as a password when transmitting afile.

FIG. 10A shows an example of the registration-with/without-passwordselection screen, and FIG. 10B shows an example of theregistration-without-password confirmation screen.

As shown in FIG. 10A, a message of “PASSWORD INFORMATION IS INCLUDED. DOYOU PERFORM REGISTRATION WITHOUT PASSWORD INFORMATION?” is displayed,and buttons of “YES” and “NO” are also displayed to make a userdetermine whether to register the password as the usual setting.

As shown in FIG. 10B, a massage of “PASSWORD INFORMATION IS INCLUDED.YOU PERFORM REGISTRATION WITHOUT PASSWORD INFORMATION.” is displayed,and a button of “yes” is also displayed to make a user confirm thedeletion of password. It should be noted that theregistration-with/without-password selection screen and theregistration-without-password confirmation screen may be displayed aspop-up screens.

FIG. 11 is a flowchart showing a reading process executed by the CPU 108shown in FIG. 1.

FIG. 11 shows the process for reading a set value registered as theusual setting, and the program therefor is stored in the memory 109.

The UI control module 201 accepts a reading request by a user (stepS501). Specifically, the user can request reading by depressing adesired button in the “usual setting” button group 801 that is displayedon the usual setting screen.

Next, the UI control module 201 passes the accepted reading request tothe transmission setting management module 207. The transmission settingmanagement module 207 reads the transmission setting related to theaccepted usual setting from the predetermined area of the memory 109(step S502).

Then, the UI control module 201 determines whether the transmissiondestination included in the read transmission setting is a newdestination of a file transmission (step S503).

When the transmission destination is not a new destination (NO in thestep S503), the transmission destination may be read as-is because itdoes not include a password. Then, the UI control module 201 sets thetransmission setting read in the step S502 as the current transmissionsetting (step S510), and finishes the process.

On the other hand, when the transmission destination is a newdestination (YES in the step S503), the UI control module 201 checks thepassword deletion flag included in the set value read in the step S502,and determines whether the flag is ON (step S504).

When the flag is not ON (NO in the step S504), the password was notdeleted.

Then, the UI control module 201 sets the user name and password that areincluded in the set value read in the step S502 as the user name andpassword of the transmission destination (step S509), and proceeds withthe process to the step S510.

On the other hand, when the flag is ON (YES in the step S504), thepassword was deleted. Then, the UI control module 201 refers to thesettings of the apparatus and determines whether an authenticationconnection is set (step S505).

When the authentication connection is set (YES in the step S505), theauthentication information related to the user who is specified usingthe user authentication function can be used as the authenticationinformation at the time of transmission.

Then, the UI control module 201 determines whether the authenticationconnection setting is a login information connection (step S506). Whenthe authentication connection setting is a login information connection(YES in the step S506), the authentication information used when theuser used the apparatus earlier can be used at the time of transmission.

Then, the UI control module 201 refers to the login information that isthe authentication information used when the user used the apparatususing the card reader 110 (step S507), acquires the user name andpassword (step S508), and proceeds with the process to the step S509.

On the other hand, when the authentication connection setting is not thelogin information connection (NO in the step S506), the authenticationinformation related to the user uses information that the userregistered to a keyring. A keyring is a bundle of encryption keys thatare used in message authentication code, for example.

Then, the UI control module 201 refers to the authentication informationrelated to the user who is specified by the user authentication functionby referring to the keyring (step S511), acquires a user name and apassword (step S512), and proceeds with the process to the step S509.That is, when the authentication information is not registered at thetime of transmitting data to another apparatus again, the UI controlmodule 201 reflects the authentication information registered into thekeyring related to the user who operates the image processing apparatus100 to the transmission setting information.

When the authentication connection is not set (NO in the step S505), theUI control module 201 displays a destination input screen in order toprompt a user to input (step S513).

The destination input screen will be described below.

Next, the UI control module 201 acquires the password that the userinputted into a password input field 1004 (step S514), and proceeds withthe process to the step S509.

Although the above description deals with the password included in afile destination, the process shown in FIG. 11 is applicable to otherpasswords included in the transmission setting in addition to thepassword included in the file destination. For example, a format inwhich a file-operating permission acquired from afile-operating-permission-management server is added to the file may bedesignated as the transmission file format. At the time, thetransmission setting that is registered or is read may include apassword for accessing the file-operating-permission-management server.

In this case, the UI control module 201 determines whether thetransmission setting includes a password for accessing thefile-operating-permission-management server in the step S403. In thestep S503, the UI control module 201 determines whether the file formatincluded in the read transmission setting handles the file operatingpermission.

In the process in FIG. 9, the UI control module 201 determines whetherthe authentication information required by another apparatus at the timeof a file transmission is permanent information that can be used whentransmitting data to another apparatus again (the step S405). Then, whenthe authentication information is permanent, it is registered (the stepS408). Next, as shown in FIG. 11, when the authentication information isregistered at the time of transmitting data to another apparatus again,the UI control module 201 reflects the authentication informationconcerned to the transmission setting information (step S509). As aresult, the operability for inputting the authentication informationthat is used to transmit data to another apparatus is improved.

FIG. 12 is a view showing an example of the file-destination inputscreen that the UI control module 201 displays on the touch panel 601 ofthe operation unit 105. In the screen, a host name input field 1001, afolder name input field 1002, a user name input field 1003, and apassword input field 1004 are displayed. Then, a user inputs data intothese fields.

Next, a second embodiment of the present invention will be described.The configuration of the image forming apparatus in the secondembodiment is similar to the configuration of the image formingapparatus 100 in the first embodiment, and its description is omitted.

The first embodiment determines whether the password is permanent or notby referring to the attribute information of the password for the filetransmission to a new destination. On the other hand, when a destinationof file transmission is registered in an address book, a user maydesignate to input a password each time on the assumption that apassword is frequently changed.

In this case, when the user designates a transmission destination thatrequires to input a password each time, an input of a password isrequired whenever transmitting a file.

When the transmission destination that is registered as the usualsetting requires inputting a password each time, the password is notpermanent.

FIG. 13 is a flowchart showing a registration process according to thesecond embodiment.

FIG. 13 shows the process for registering the current transmissionsetting as a usual setting, and the program therefor is stored in thememory 109 and is executed by the CPU 108.

The UI control module 201 accepts a registration request that a userdesignates to register a transmission setting as a usual setting (stepS1101), and confirms the set value of the transmission settingcorresponding to the accepted registration request (step S1102).

Then, the UI control module 201 determines whether the transmissiondestination included in the transmission setting in the confirmed setvalue is a destination of a file transmission in an address book (stepS1103).

When the transmission destination is not a destination in the addressbook (NO in the step S1103), the UI control module 201 passes thetransmission setting corresponding to the accepted saving request to thetransmission setting management module 207 because such a setting ispermitted to register as-is.

Then, the transmission setting management module 207 registers the setvalue into a predetermined area of the memory 109 (step S1109), andfinishes the process.

On the other hand, when the transmission destination is a destination inthe address book (YES in the step S1103), the password may be requiredto input each time, and the password may not be permanent.

Then, the UI control module 201 acquires the attribute of thedestination in the address book of the transmission destination includedin the transmission setting corresponding to the accepted registrationrequest (step S1104), and determines whether the password should beinputted each time (step S1105).

When the password is not required to input each time (NO in the stepS1105), the password is permanent, and the process proceeds to the stepS1109.

On the other hand, when the password is required to input each time (YESin the step S1105), the password is not permanent, and it is notpreferred to register it as the usual setting.

Accordingly, the UI control module 201 displays theregistration-without-password confirmation screen shown in the FIG. 10B,and notifies the user of deleting the password (step S1106). Next, theUI control module 201 deletes the password inputted each time that isincluded in the transmission setting corresponding to the acceptedregistration request (step S1107), sets the password deletion flag savedas the usual setting to ON (step S1108), and proceeds with the processto the step S1109.

The reading process in the second embodiment is identical to the readingprocess shown in FIG. 11 except the process in the step S503. In thesecond embodiment, the UI control module 201 determines the transmissiondestination included in the read transmission setting is a destinationof a file transmission in the address book in the step S503.

Next, a third embodiment of the present invention will be described. Theconfiguration of the image forming apparatus in the third embodiment issimilar to the configuration of the image forming apparatus 100 in thefirst embodiment, and its description is omitted.

In the first and second embodiments, when calling the usual settingincluding the file transmission destination, the user name and thepassword at the time of calling are set instead of that at the time ofregistration.

It is conceivable to set the host name and the folder name of thetransmission destination at the time of calling in addition to the username and the password.

For example, a setting of an apparatus can restrict the destination ofthe file transmission to a specific folder related to an individual userfrom the point of view of security. In this case, it is conceivable thatthe host name and the folder name of the transmission destination thatare related to the user are effective only when the user is logged in,and are not permanent.

FIG. 14 is a flowchart showing a reading process according to the thirdembodiment.

FIG. 14 shows the process for registering the current transmissionsetting as a usual setting, and the program therefor is stored in thememory 109 and is executed by the CPU 108.

The UI control module 201 accepts a reading request by a user (stepS1201). Specifically, the user can request reading by pressing a desiredbutton in the “usual setting” button group 801 that is displayed on theusual setting screen.

Next, the UI control module 201 passes the accepted reading request tothe transmission setting management module 207. The transmission settingmanagement module 207 reads the transmission setting related to theaccepted usual setting from the predetermined area of the memory 109(step S1202).

Next, the UI control module 201 determines whether a file transmissiondestination is limited to a “MyFolder” related to the user withreference to the setting of the apparatus (step S1203).

When the transmission destination is not limited to the “MyFolder” (NOin the step S1203), the UI control module 201 refers to the setting ofthe apparatus. Then, the UI control module 201 checks an authenticationconnection setting (step S1211), and acquires a user name and a password(step S1212).

Next, the UI control module 201 sets the acquired user name and passwordto the transmission destination (S1213), sets them together with theother transmission settings read in the step S1202 as the currenttransmission setting (step S1208), and finishes the process.

The process in the steps S1211 through S1213 corresponds to the processin the steps S505 through S509 in the flowchart in FIG. 11.

When the transmission destination is limited to the “MyFolder” (YES inthe step S1203), the UI control module 201 refers to the setting of theapparatus. Then, the UI control module 201 determines whether the“MyFolder” information related to the user is managed by theauthentication server (step S1204).

When the “MyFolder” information is managed by the authentication server(YES in the step S1204), the UI control module 201 refers to the logininformation acquired at the time of the authentication for operating theapparatus by the user (step S1205).

Then, the UI control module 201 acquires a host name, a folder name, auser name, and a password that are related to the user and are managedby the authentication server (step S1206).

Next, the UI control module 201 sets the host name, the folder name, theuser name, and the password that are acquired in the step S1206 to thetransmission destination (step S1207), and proceeds with the process tothe step S1208.

When the “MyFolder” information is not managed by the authenticationserver (NO in the step S1204), the UI control module 201 refers to thekeyring (step S1209). Then, the UI control module 201 acquires a hostname, a folder name, a user name, and a password that are related to theregistered user (step S1210), and proceeds with the process to the stepS1207.

Other Embodiments

Aspects of the present invention can also be realized by a computer of asystem or apparatus (or devices such as a CPU or MPU) that reads out andexecutes a program recorded on a memory device to perform the functionsof the above-described embodiment(s), and by a method, the steps ofwhich are performed by a computer of a system or apparatus by, forexample, reading out and executing a program recorded on a memory deviceto perform the functions of the above-described embodiment(s). For thispurpose, the program is provided to the computer for example via anetwork or from a recording medium of various types serving as thememory device (e.g., computer-readable medium).

While the present invention has been described with reference toexemplary embodiments, it is to be understood that the invention is notlimited to the disclosed exemplary embodiments. The scope of thefollowing claims is to be accorded the broadest interpretation so as toencompass all such modifications and equivalent structures andfunctions.

This application claims the benefit of Japanese Patent Application No.2011-255056, filed on Nov. 22, 2011, which is hereby incorporated byreference herein in its entirety.

1-10. (canceled)
 11. A data communication apparatus comprising: one ormore memories that store a set of instructions; and one or moreprocessors that execute the instructions causing the data communicationapparatus to: receive a transmission destination for a filetransmission; set authentication information required for the filetransmission; perform the file transmission using the receivedtransmission destination and the set authentication information; andregister, in a case where the authentication information input for alogin to the data communication apparatus is set for the filetransmission, the received transmission destination without registeringthe set authentication information.
 12. The data communication apparatusaccording to claim 11, wherein the instructions further cause the datacommunication apparatus to, in a case where the authenticationinformation input at the time of an input of the transmissiondestination is set for the file transmission, register the receivedtransmission destination and the set authentication information.
 13. Thedata communication apparatus according to claim 11, further comprising ascanner for scanning an original image, wherein, in the filetransmission, a file corresponding to the original image scanned by thescanner is transmitted to the transmission destination.
 14. The datacommunication apparatus according to claim 11, wherein the transmissiondestination includes at least one of address information, host nameinformation and folder information.
 15. The data communication apparatusaccording to claim 11, wherein the set authentication information isused for authentication in a file server corresponding to thetransmission destination.
 16. The data communication apparatus accordingto claim 11, wherein the set authentication information is a password.17. A method of controlling a data communication apparatus comprising:receiving a transmission destination for a file transmission; settingauthentication information required for the file transmission;performing the file transmission using the received transmissiondestination and the set authentication information; and registering, ina case where the authentication information input for a login to thedata communication apparatus is set for the file transmission, thereceived transmission destination without registering the setauthentication information.
 18. The method according to claim 17,further comprising, in a case where the authentication information inputat the time of an input of the transmission destination is set for thefile transmission, registering the received transmission destination andthe set authentication information.
 19. The method according to claim17, wherein the data communication apparatus comprises a scanner forscanning an original image, and wherein, in the file transmission, afile corresponding to the original image scanned by the scanner istransmitted to the transmission destination.
 20. The method according toclaim 17, wherein the transmission destination includes at least one ofaddress information, host name information and folder information. 21.The method according to claim 17, wherein the set authenticationinformation is used for authentication in a file server corresponding tothe transmission destination.
 22. The method according to claim 17,wherein the set authentication information is a password.
 23. Anon-transitory computer-readable storage medium storing a program that,when executed by a computer, causes the computer to perform a method ofcontrolling a data communication apparatus, the method comprising:receiving a transmission destination for a file transmission; settingauthentication information required for the file transmission;performing the file transmission using the received transmissiondestination and the set authentication information; and registering, ina case where the authentication information input for a login to thedata communication apparatus is set for the file transmission, thereceived transmission destination without registering the setauthentication information.